Series Resistor Calculator

Calculate total resistance for resistors connected in series

Resistor 1

Value

Unit

Tolerance

Resistor 2

Value

Unit

Tolerance

Total Series Resistance

320 kΩ

Worst-case tolerance: ±5%

In Ohms

320,000 Ω

In Kilohms

320 kΩ

Circuit Formula

R₁ + R₂ = 320kΩ

Series Resistor Formula

R_total = R₁ + R₂ + R₃ + ... + Rₙ

R_total: Total resistance in series circuit

R₁, R₂, R₃: Individual resistor values

Tolerance: Worst-case tolerance is the largest individual tolerance

Unit Conversion: 1 kΩ = 1,000 Ω, 1 MΩ = 1,000,000 Ω

Common Questions

What is a series resistor circuit?

Resistors connected end-to-end in a single path. Current is same through all, voltage divides proportionally.

How does total resistance compare to individual ones?

Total is always greater than largest resistor: R_total = R₁ + R₂ + R₃ + ...

Why use series resistors instead of one?

To create voltage dividers, limit current, achieve non-standard values, or distribute power dissipation.

What happens if I add more resistors in series?

Total resistance increases, current decreases (if voltage constant), voltage across each drops.

How Series Resistor Calculator Works

This calculator computes the total resistance when multiple resistors are connected end-to-end in a series configuration. In series circuits, resistors are connected sequentially so the same current flows through each resistor.

Series Circuit Basics

When resistors are in series, the total resistance is simply the sum of all individual resistances. This is different from parallel circuits where the calculation is more complex.

Key calculation features:

Multiple Resistor Inputs: Add as many resistors as needed
Automatic Unit Conversion: Works with Ω, kΩ, and MΩ
Tolerance Calculation: Calculates worst-case tolerance
Visual Circuit Formula: Shows the mathematical expression

How to Use This Calculator

Calculate series resistance in three simple steps:

Simple Process:

Enter Values: Input resistor values in the provided fields
Select Units: Choose Ω, kΩ, or MΩ for each resistor
Add More: Use "+ Add Another Resistor" for additional components
Calculate: Click the calculate button for instant results

Common Examples

Typical series resistor configurations:

Resistor Values	Total Resistance	Common Application
100Ω + 220Ω	320Ω	LED current limiting
1kΩ + 2kΩ	3kΩ	Voltage divider
4.7kΩ + 10kΩ	14.7kΩ	Sensor circuits
47Ω + 100Ω + 220Ω	367Ω	Impedance matching

Frequently Asked Questions

Common questions about series resistor circuits:

What are the key characteristics of series resistor circuits?

Series resistor circuits have three fundamental characteristics:

Series Circuit Rules:

Same Current: Identical current flows through all resistors
Voltage Division: Voltage drops across each resistor proportionally to its resistance
Resistance Adds: Total resistance equals sum of individual resistances
Power Distribution: Power dissipated is proportional to resistance

How do I calculate voltage drops in a series circuit?

Voltage drops in series circuits follow the voltage divider rule:

Voltage Divider Formula:

 VR₁ = Vtotal × (R₁ / Rtotal)

Example: For 12V across 1kΩ and 2kΩ in series:
V_1kΩ = 12V × (1000/3000) = 4V
V_2kΩ = 12V × (2000/3000) = 8V

What happens if one resistor fails in a series circuit?

A single resistor failure affects the entire series circuit:

Failure Modes:

Open Circuit: Infinite resistance - complete circuit interruption
Short Circuit: Zero resistance - current increases dramatically
Value Drift: Resistance changes - circuit operates incorrectly